REG增强的脱细胞猪角膜/聚甲基丙烯酸羟乙酯原位一体式全层复合人工角膜

背景:目前用于全层移植的人工角膜缺乏生物活性及力学适配性,组合式人工角膜存在镜柱和周围组分间的界面问题。目的:在脱细胞猪角膜原位固化制备具有多肽增强、匹配自然角膜机械强度、良好透光性的一体式全层人工角膜。方法:使用非离子型脱细胞试剂Triton X-100与超声冻融及超级核酸酶相结合的方法制备脱细胞猪角膜,将聚甲基丙烯酸羟乙酯单体与光引发剂同时引入脱细胞猪角膜中,通过紫外滤光片遮住除中心区域以外的部分,使用275 nm紫外光引发中央区域聚合,除去未反应的单体及引发剂后得到中央光学区,同理在后板层固化隔水区,最后引入REG活性多肽,得到原位一体式全层人工角膜,表征人工角膜的物理性能、力学性能、透光性、降解性能及体内外生物相容性。结果与结论:①实验在脱细胞猪角膜的中央区域采用聚甲基丙烯酸羟乙酯原位构建了一个具有聚合物和胶原纤维共存的光学区,扫描电镜下可见人工角膜的上表面较为粗糙且轮廓不规则,具有明显的凹陷和突起结构,下表面相对光滑;该人工角膜具有接近于天然角膜的力学性能,光学区透光率达到自然角膜的80%,浸泡于含胶原酶的PBS无菌溶液中可较好地保留固化光学区和隔水区,维持角膜的基本结构;该人工角膜具有良好的细胞相容性,能够为细胞提供适宜的黏附生长环境,有利于角膜上皮细胞的迁移和黏附,促进血管内皮细胞的生长和新生血管的形成,促进上皮化过程;人工角膜植入SD大鼠皮下12周后具有良好的生物相容性和安全性,可降低植入初期的急性炎症反应;②结果表明,实验制备的一体式全层人工角膜具有作为全层人工角膜支架材料的潜力。

Loss of LBP triggers lipid metabolic disorder through H3K27 acetylation-mediated C/EBPβ-SCD activation in non-alcoholic fatty liver disease

Non-alcoholic fatty liver disease(NAFLD)is associated with mutations in lipopolysaccharide-binding protein(LBP),but the underlying epigenetic mechanisms remain understudied.Herein,LBP^(-/-)rats with NAFLD were established and used to conduct integrative targetingactive enhancer histone H3 lysine 27 acetylation(H3K27ac)chromatin immunoprecipitation coupled with high-throughput and transcriptomic sequencing analysis to explore the potential epigenetic pathomechanisms of active enhancers of NAFLD exacerbation upon LBP deficiency.Notably,LBP^(-/-)reduced the inflammatory response but markedly aggravated high-fat diet(HFD)-induced NAFLD in rats,with pronounced alterations in the histone acetylome and regulatory transcriptome.In total,1128 differential enhancer-target genes significantly enriched in cholesterol and fatty acid metabolism were identified between wild-type(WT)and LBP^(-/-)NAFLD rats.Based on integrative analysis,CCAAT/enhancer-binding proteinβ(C/EBPβ)was identified as a pivotal transcription factor(TF)and contributor to dysregulated histone acetylome H3K27ac,and the lipid metabolism gene SCD was identified as a downstream effector exacerbating NAFLD.This study not only broadens our understanding of the essential role of LBP in the pathogenesis of NAFLD from an epigenetics perspective but also identifies key TF C/EBPβand functional gene SCD as potential regulators and therapeutic targets.

Intraseasonal variability of the Kuroshio observed via mooring at 18°N

Insufficient observations near the origin of the Kuroshio have led to incomplete understanding of the intraseasonal variability(ISV)of the Kuroshio.Direct measurements of the Kuroshio velocity were performed with an array of three profiler moorings(122.7°E,123°E,and 123.3°E)along 18°N from January 2018 to February 2020.The ISV of the Kuroshio at 18°N was investigated based on a combination of mooring observations and global high-resolution HYbrid Coordinate Ocean Model reanalysis data.The estimated time-averaged transport in the upper 350 m across the observation transect was 6.5±2.6 Sv(1.0 Sv=10^(6)m^(3)/s).Two significant ISV peaks at 50-60 and~100 d were recognized in the power spectra of the meridional velocity and transport.Further analysis indicated that the ISV at 50-60 d was caused by westward-propagating eddies at average propagation speed of~13 cm/s and wavelength of~635 km.Another ISV peak at~100 d was mainly caused by northward-propagating eddies generated in the North Equatorial Current region.Further investigation indicated that the ISV of the Kuroshio at 18°N is dominated by meridional transport,rather than by the zonal migration of the Kuroshio main axis.Our findings provide a better understanding of the ISV of the Kuroshio east of Luzon Island.

Research progress and challenges in stem cell therapy for diabetic foot: Bibliometric analysis and perspectives

BACKGROUND Stem cell therapy has shown great potential for treating diabetic foot(DF).AIM To conduct a bibliometric analysis of studies on the use of stem cell therapy for DF over the past two decades,with the aim of depicting the current global research landscape,identifying the most influential research hotspots,and providing insights for future research directions.METHODS We searched the Web of Science Core Collection database for all relevant studies on the use of stem cell therapy in DF.Bibliometric analysis was carried out using CiteSpace,VOSviewer,and R(4.3.1)to identify the most notable studies.RESULTS A search was conducted to identify publications related to the use of stem cells for DF treatment.A total of 542 articles published from 2000 to 2023 were identified.The United States had published the most papers on this subject.In this field,Iran’s Shahid Beheshti University Medical Sciences demonstrated the highest productivity.Furthermore,Dr.Bayat from the same university has been an outstanding researcher in this field.Stem Cell Research&Therapy is the journal with the highest number of publications in this field.The main keywords were“diabetic foot ulcers,”“wound healing,”and“angiogenesis.”CONCLUSION This study systematically illustrated the advances in the use of stem cell therapy to treat DF over the past 23 years.Current research findings suggested that the hotspots in this field include stem cell dressings,exosomes,wound healing,and adipose-derived stem cells.Future research should also focus on the clinical translation of stem cell therapies for DF.

新时代中国共产党自我净化机制及其系统构建

以习近平同志为核心的党中央在营造良好党内政治生态过程中,系统构建了强大的党的自我净化机制。具体而言,主要包括四个方面:动力机制、预防机制、行为机制和评价机制。从动力机制来看,无产阶级及其政党的根本宗旨和“历史使命”等内部动力与历史周期率等外部动力一起构成了党的自我净化的动力源。从预防机制来看,党内监督与党外监督的一体推进,有效构筑了党的自我净化的“防火墙”。从行为机制来看,政治净化、思想净化、组织净化、作风净化和反腐败斗争构成了自我净化的具体实践。从评价机制来看,问题标准、人民标准和历史标准,构成了评价党的自我净化的三个标准。

高炉炉墙结厚原因分析及应用

从矿石原料、入炉燃料、碱金属等方面分析了炉墙结厚的原因,针对出现的结厚征兆,采取了控制有害元素入炉负荷、低碱度高物理热、疏通边缘煤气流、热洗炉等措施,使炉墙结厚事故能提前预防,且结厚部位和形态的判断精准率≥80%,洗炉时30个冶炼周期内基本可以恢复正常炉况。

高炉煤气流监测装置及应用

介绍了一种高炉煤气流监测装置的结构及应用效果。通过对炉顶不同方向煤气流的温度检测与比值计算,实现对其发展程度和趋势的数据化精准判断,有效解决传统十字测温装置造成的料面拉沟问题,稳定了高炉煤气流分布,提高了煤气利用率。

高炉铁口异常与治理

对炼铁生产实践中高炉铁口容易出现的异常情况进行系统阐述,对引发铁口难开、铁口喷溅、铁口深度异常、铁口角度异常的原因进行深入剖析,结合炮泥质量、炉缸工作状态、煤气流、炉前出铁管理等多方面因素分析铁口异常治理措施,探索高炉铁口高质量长周期稳定运行的技术要领,为生产实践中高炉铁口日常维护及异常情况治理提供技术支撑。

农村低收入群体实现共同富裕:何以可能?

进入新发展阶段,实现全体人民的共同富裕成为时代发展的客观要求,而农村低收入群体何以可能实现共同富裕是其重中之重。农村低收入群体实现共同富裕具备中国共产党领导下消除绝对贫困所奠定的坚实发展根基、党领导下的乡村振兴战略全面推进与实施、党对扎实推进农村共同富裕工作的重视与支持以及对低收入群体实现共同富裕的支持与关注等可行性,但同时也面临着持续增收乏力甚至歉收的可能、持续增收途径较少且有限的可能、增收致富能力较弱或不足的可能、离实现共富存在较大差距的可能等方面的现实挑战。为此需要夯实防止滑入贫困的兜底保障根基、拓宽低收入群体的多元增收致富渠道、着力提升低收入群体的增收致富能力及推进乡村全面振兴战略缩小共富差距等方面来着手实现农村低收入群体的共同富裕。

西藏马查拉煤系地层孔隙结构特征

马查拉煤系地层是昌都赋煤带主要煤系地层之一。为明确风化对西藏马查拉煤系地层孔隙结构特征的影响,本文以西藏早石炭世马查拉组剖面不同类型风化岩石为研究对象,利用氮气吸附试验及分形理论对微观孔隙结构及其复杂程度进行研究。试验结果表明:岩石的吸脱附等温线都呈现反“S”型,孔隙结构呈现同质化发展趋势。相对压力(P/P_(0))可以根据岩样吸脱附曲线的上升趋势分为小于0.1、0.1~0.45及大于0.453个阶段。岩样孔径结构集中分布在1~5 nm范围内,其中泥质碎屑灰岩、粉矿质泥岩、粉砂岩、泥岩和灰岩在1~2 nm范围内孔隙体积较大,煤层的比表面积和孔体积与相邻岩层相比较低。风化煤岩大孔分形维数明显高于小孔,孔隙结构复杂程度更高,煤层及碳质泥岩的孔隙分形维数相较其他类型岩石更低。研究结果可服务于昌都地区开发和灾害防治。

长春北湖国家湿地公园湿地生态系统健康评价

湿地生态系统健康评价是开展湿地生态恢复与保护工作的先决条件。从湿地生态环境、功能作用和社会环境3个子系统提取14项评价指标构建湿地生态系统健康评价体系,评估长春北湖国家湿地公园的生态系统健康状况,明晰指标要素的贡献程度并识别健康威胁因子,以期为长春北湖国家湿地公园湿地生态系统可持续发展提供科学依据。结果表明,长春北湖国家湿地公园生态系统健康指数为6.013,呈“健康”等级。3个要素层中,功能作用和社会环境健康指数分别为6.423和6.876,呈“健康”状态,生态环境的健康指数为5.691,属于“亚健康”状态。评价指标贡献度结果说明物种多样性和水环境质量是影响长春北湖国家湿地公园生态系统健康水平的主要因素。

计及源荷不确定性的微电网分布鲁棒优化调度

高比例可再生能源的接入给微电网的稳定运行带来的巨大挑战,传统随机优化和鲁棒优化方法在处理不确定性方面仍存在一定的局限性。综合考虑风电、负荷的双重不确定性,采用分布鲁棒优化方法,构建了基于豪斯多夫(Hausdorff)距离的微电网两阶段分布鲁棒优化调度模型,第一阶段利用场景预测信息,制定包含储能充放电计划、购售电计划的预调度方案,第二阶段基于各典型场景信息制定微电网各单元出力调整计划;然后采用列与约束生成算法(columns and constraints generation,CCG)进行迭代求解,得到最恶劣概率分布下运行成本最低的调度方案;最后,通过算例仿真分析验证了所提方法的有效性,所得到的决策方案兼顾了经济性和安全性。

连续流技术在光氧化还原催化转化的最新进展

光氧化还原催化转化因其具备绿色、温和、可持续和原子经济性高等方面的优势,近年来被广泛应用于构建有机合成和药物分子骨架.光子被称为绿色“无痕”试剂,可以提供能量进而引发化学反应.光化学过程通常涉及分子分解、分子激发态的重排或发色团激发引起的电子转移(光氧化还原催化)等过程.20世纪80年代,太阳光能作为“绿色化学”的有力工具被用于构建新型分子骨架.随后,可见光被人们广泛应用于有机合成,且陆续有新的研究结果报道.然而,众多研究表明光氧化还原催化中仍然存在一些基本限制.近年来,连续流反应技术成为一种引人注目且功能强大的工具,该技术可以克服间歇反应器在反应过程中存在的局限.连续流反应技术的引入可以有效解决传统有机光化学合成中的许多问题,实现不同类型的光化学转化.本综述系统地分析了传统光化学釜式反应器存在的限制:第一,根据布格-朗伯-比尔定律,传统的光催化反应的透光率随着反应路径长度的增加衰减较为明显.因而在使用较大的间歇式光反应器进行规模化放大实验时,需要增加光照强度来克服光子衰减效应,但容易过度照射反应体系,进而引起反应体系受热不均造成反应效率下降和副产物增多等问题;第二,间歇式的光化学反应装置容易受混合效果的影响,进行非均相反应时往往反应效率不高.总结分析了连续流反应技术解决传统光反应中问题的成功关键在于连续流反应技术具有更好的混合能力、更优的传质传热效率以及更容易规模化放大的优势.基于光催化剂的类型包括传统金属催化剂、有机光催化剂以及非均相光催化剂,对近五年连续流技术在光氧化还原催化转化中的应用进行了分类及讨论.针对不同反应条件包括光催化剂、多相反应和多步骤等体系中连续流反应器的装置材料和光源和溶剂等方面内容,探讨了连续流反应技术在不同的光催化反应中的影响因素以及反应机理.本文还提出了目前微流场技术中仍需要解决的问题:(1)开发更高效的光催化剂;(2)反应过程中固体堵塞及后处理系统的问题;(3)实现大规模生产所需要的变革.在此基础上,对连续流技术在光氧化还原催化转化的研究前景进行了展望,如多步骤连续流以及连续流技术在生物和聚合物材料方面的应用.

具有可控载流子动力学的烯烃连接的共价有机框架用于高效太阳能光催化制氢

太阳能光催化水直接制氢被认为是未来解决全球能源危机和环境污染问题的有效途径之一.COFs是一类新兴的有机结晶多孔聚合物光催化剂,具有巨大的发展空间.当前研究最多的是亚胺键连接的COFs光催化剂,其骨架的π-共轭程度相对较低,且亚胺键上的氮容易受到质子攻击,会影响光化学过程和光催化性能.烯烃(C=C键)连接的COFs是全π-共轭的,具有促进的载流子迁移率和超高的化学稳定性,是极具潜力的光催化反应平台.然而,由于C=C键的不可逆特性,成功构筑具有高结晶度和孔隙率的烯烃连接的COFs仍极具挑战.构建D-A结构被认为是提升其光催化活性的有效策略之一,但目前具有D-A结构的烯烃连接的COFs光催化研究较少.本文提出了一种简单的分子工程策略来调控烯烃连接COFs的D-A相互作用以实现高效的光催化产氢.将2,4,6-三甲基1,3,5-三嗪(TM)分别与对苯二甲醛(TA)、2,5-二甲基对苯二甲醛(MA)和3,3’-二甲基-4,4’-二醛基联苯(DMA)通过Knoevenagel聚合反应制备三种D-A型烯烃连接的COFs,即TM-TA-COF,TM-MA-COF和TM-DMA-COF,系统考察了引入甲基和苯环等较弱电子给体对光催化析氢性能的影响.结果发现,当将电子基团锚定在框架中时,可提供不同程度的D-A相互作用力,从而精准调控COFs光催化剂的激子解离效率、电荷传输行为、光响应能力和HOMO-LUMO水平,优化COFs的光催化产氢活性.傅里叶红外光谱、固体核磁和X射线光电子能谱证明了三种COFs材料的成功合成.粉末X射线衍射和氮气吸脱附结果表明,三种COFs具有良好的结晶性和高孔隙率(比表面积分别为911,747和1021 m^(2)g^(-1)).光物理测试结果表明,三种COFs都具有可见光响应能力和合适的导带位置以驱动可见光光催化分解水产氢,且光生载流子的复合程度和激子结合能随着给体共轭程度的增强而降低,其中TM-DMA-COF具有最优的载流子分离能力.光催化分解水产氢结果表明,TM-DMA-COF具有最高的产氢活性,可达4300μmolh^(-1)g_(cat)^(-1),高于大多数COFs光催化剂的析氢性能,与预测结果一致.光(电)化学测试结果表明,TM-DMA-COF表现出最高产氢催化活性,这与其具有最佳的电荷转移动力学以及最强的与Pt助催化剂相互作用力有关.理论研究结果表明,D-A相互作用随着给体共轭程度的提高而增强,这有利于载流子动力学以及降低H_(2)形成的能量势垒,最终提升光催化活性.综上,本文制备了三种具有高结晶度和孔隙率的D-A型烯烃连接COFs,以阐述甲基和苯环等相对较弱的给电子基团在COFs光催化剂结构设计中的价值,为调节COFs的光催化性能提供了一种新的简单有效的策略.

Single-cell and spatial heterogeneity landscapes of mature epicardial cells

Tbx18,Wt1,and Tcf21 have been identified as epicardial markers during the early embryonic stage.However,the gene markers of mature epicardial cells remain unclear.Single-cell transcriptomic analysis was performed with the Seurat,Monocle,and CellphoneDB packages in R software with standard procedures.Spatial transcriptomics was performed on chilled Visium Tissue Optimization Slides(10x Genomics)and Visium Spatial Gene Expression Slides(10x Genomics).Spatial transcriptomics analysis was performed with Space Ranger software and R software.Immunofluorescence,whole-mount RNA in situ hybridization and X-gal staining were performed to validate the analysis results.Spatial transcriptomics analysis revealed distinct transcriptional profiles and functions between epicardial tissue and non-epicardial tissue.Several gene markers specific to postnatal epicardial tissue were identified,including Msln,C3,Efemp1,and Upk3b.Single-cell transcriptomic analysis revealed that cardiac cells from wildtype mouse hearts(from embryonic day 9.5 to postnatal day 9)could be categorized into six major cell types,which included epicardial cells.Throughout epicardial development,Wt1,Tbx18,and Upk3b were consistently expressed,whereas genes including Msln,C3,and Efemp1 exhibited increased expression during the mature stages of development.Pseudotime analysis further revealed two epicardial cell fates during maturation.Moreover,Upk3b,Msln,Efemp1,and C3 positive epicardial cells were enriched in extracellular matrix signaling.Our results suggested Upk3b,Efemp1,Msln,C3,and other genes were mature epicardium markers.Extracellular matrix signaling was found to play a critical role in the mature epicardium,thus suggesting potential therapeutic targets for heart regeneration in future clinical practice.

考虑不确定集合置信水平的输电网鲁棒扩展规划

为适应可再生能源复杂的时空分布特性和出力的随机性,提出一种考虑不确定集合置信水平的输电网鲁棒扩展规划方法。首先,考虑电网安全运行,建立输电网N-1预想故障潮流调整的扩展规划模型;然后,采用广义凸包不确定集合描述风功率的随机波动性,基于极限场景法建立两阶段鲁棒规划模型,并用CPLEX进行求解。为进一步提高规划方案的经济性,调节不确定集合的置信水平,获得多个决策方案,然后运用层次分析法进行评估,确定综合指标最优的规划方案。最后在改进的Garver-6系统上进行仿真分析,验证了所提方法的可行性与有效性。

交锁髓内钉与钢板内固定在股骨骨折治疗中的效果比较

目的分析交锁髓内钉与钢板内固定治疗股骨骨折的临床价值。方法方便选取2020年1月—2022年8月徐州仁慈医院收治的46例股骨骨折患者为研究对象,按照随机数表法分为观察组(23例,采取交锁髓内钉治疗),对照组(23例,采取钢板内固定治疗)。对比两组围术期指标、预后指标、并发症发生率、髋关节功能及骨折愈合优良率。结果观察组手术用时、术中失血量、引流量、住院时间均优于对照组,差异有统计学意义(P<0.05)。观察组骨折愈合、开始负重用时较对照组短,差异有统计学意义(P<0.05);两组膝关节、踝关节活动度对比,差异无统计学意义(P>0.05)。观察组并发症发生率(4.35%)低于对照组(34.78%),差异有统计学意义(P<0.05)。观察组骨折愈合优良率(95.65%)高于对照组(82.61%),髋关节功能略高于对照组,但差异无统计学意义(P>0.05)。结论交锁髓内钉、钢板内固定在股骨骨折治疗中均可发挥良好作用,能够促进患者术后关节功能的恢复,但交锁髓内钉并发症发生率更低,治疗用时及预后恢复时间明显更短,固定稳定性更佳。

Research Progress on Structure and Bioactivity of Longan Polysaccharide

Longan originates from southern China and has high nutritional and health value.Recent phytochemistry and pharmacology studies have shown that polysaccharides are a main bioactive component of longan.Longan polysaccharides possess antioxidant,anti-aging,anti-tumor,immunomodulatory,and other bioactivities.Hot-water extraction,ethanol precipitation,and ultrasonic extraction are generally used to extract water-soluble longan polysaccharides.However,the relationship between the structure and bioactivity of longan polysaccharides remains unclear,requiring further investigation.The aim of this review is to evaluate the current literature focusing on the extraction,purification,structural characterization,and biological activity of longan polysaccharides.We believe that this review would provide a useful bibliography for further innovation and a basis for using longan polysaccharides in functional food.

OSAP‐Loss:Efficient optimization of average precision via involving samples after positive ones towards remote sensing image retrieval

In existing remote sensing image retrieval(RSIR)datasets,the number of images among different classes varies dramatically,which leads to a severe class imbalance problem.Some studies propose to train the model with the ranking‐based metric(e.g.,average precision[AP]),because AP is robust to class imbalance.However,current AP‐based methods overlook an important issue:only optimising samples ranking before each positive sample,which is limited by the definition of AP and is prone to local optimum.To achieve global optimisation of AP,a novel method,namely Optimising Samples after positive ones&AP loss(OSAP‐Loss)is proposed in this study.Specifically,a novel superior ranking function is designed to make the AP loss differentiable while providing a tighter upper bound.Then,a novel loss called Optimising Samples after Positive ones(OSP)loss is proposed to involve all positive and negative samples ranking after each positive one and to provide a more flexible optimisation strategy for each sample.Finally,a graphics processing unit memory‐free mechanism is developed to thoroughly address the non‐decomposability of AP optimisation.Extensive experimental results on RSIR as well as conventional image retrieval datasets show the superiority and competitive performance of OSAP‐Loss compared to the state‐of‐the‐art.

非扩髓型交锁髓内钉在胫骨骨折治疗中的应用效果分析

目的 分析非扩髓型交锁髓内钉治疗胫骨骨折的效果。方法 收集本院52例胫骨骨折患者资料(2019年10月~2022年6月),以随机数字表法分为对照组(26例,采用扩髓型交锁髓内钉治疗)和观察组(26例,采用不扩髓型交锁髓内钉治疗)。对照组采用扩髓型交锁髓内钉治疗,观察组采用非扩髓型交锁髓内钉治疗。比较两组患者术后恢复情况评分以及治疗前后的运动功能、Barthel指数、简明健康状况调查量表(SF-36)评分。结果 治疗后,观察组患者患处疼痛评分(1.24±0.24)分、关节弯曲评分(1.13±0.11)分、下地行走评分(1.35±0.29)分均较对照组的(2.35±0.49)、(2.90±0.41)、(2.36±0.64)分低(P<0.05);观察组患者运动功能评分(88.25±6.16)分、Barthel指数评分(88.66±3.23)分均较对照组的(81.82±4.59)、(80.85±2.68)分(P<0.05)。治疗后,观察组患者生理功能评分(88.62±9.59)分、躯体角色评分(88.58±9.62)分、机体疼痛评分(89.68±9.51)分、一般健康评分(88.96±5.63)分、精力评分(85.69±6.51)分、社会功能评分(89.65±9.61)分、情感角色评分(86.98±8.52)分、心理健康评分(89.63±5.67)分均高于对照组的(72.58±8.48)、(73.59±8.55)、(71.59±8.12)、(72.56±10.02)、(71.59±9.65)、(72.59±6.82)、(72.61±6.51)、(72.58±5.65)分,(P<0.05)。结论 非扩髓型交锁髓内钉适合胫骨结节下离关节面>5 cm未出现感染的骨折治疗,术后不需要外固定,有助于骨折愈合,以免影响膝踝关节功能,可尽早活动,加速患者术后恢复,优化患者预后,临床推广意义深远。